Methods in elastic tissue biology: elastin isolation and purification

Elastin provides recoil to tissues subjected to repeated stretch, such as blood vessels and the lung. It is encoded by a single gene in mammals and is secreted as a 60-70 kDa monomer called tropoelastin. The functional form of the protein is that of a large, highly crosslinked polymer that organizes as sheets or fibers in the extracellular matrix. Purification of mature, crosslinked elastin is problematic because its insolubility precludes its isolation using standard wet-chemistry techniques. Instead, relatively harsh experimental approaches designed to remove non-elastin 'contaminates' are employed to generate an insoluble product that has the amino acid composition expected of elastin. Although soluble, tropoelastin also presents problems for isolation and purification. The protein's extreme stickiness and susceptibility to proteolysis requires careful attention during purification and in tropoelastin-based assays. This article describes the most common approaches for purification of insoluble elastin and tropoelastin. It also addresses key aspects of studying tropoelastin production in cultured cells, where elastin expression is highly dependent upon cell type, culture conditions, and passage number.     

Partial characterization of a tropoelastin precursor isolated from chick aorta.

Evidence is presented that indicates tropoelastin is derived from a soluble elastin with a molecular weight of 95000. Tropoelastin and its proposed precursor were isolated from the aortas of copper-deficient chicks. Although it is doubtful that the proposed precursor is an initial product of elastin translation, i.e., a proelastin, it is proposed to be at least a truncated form of proelastin that is converted to tropoelastin. The key to its isolation was the presence of alpha 1-antitrypsin at each step in the purification procedure. The first 11 amino acid residues at the NH2 terminal of the proposed tropoelastin precursor (GGVPGVAVPGGV) are the same as those for tropoelastin. Its amino acid composition is similar to that of tropoelastin, except for higher amounts of acidic amino acid residues. Further, the proposed precursor contains a limited number of aldehydic functions, presumably in the form of peptidyl allysine. This was taken as an indication that the proposed precursor serves as a substract for lysyl oxidase. Under the conditions used for the isolation, the precursor appeared to be in higher concentrations than tropoelastin in aorta extracts from copper-deficient chicks.     

Highly acidic proteins from human brain: purification and properties of Glu-50 protein

Three extremely acidic proteins were isolated from human brain and purified to apparent homogeneity. One of them, Glu-50 protein, contained much glutamic acid (about 50% of the total amino acids). Its purification involved ammonium sulfate fractionation, DEAE-Sephadex A-50 chromatography, and gel filtration on Sephadex G-100 and G-75. Its molecular weight was determined to be 11,000 by SDS polyacrylamide gel electrophoresis and 34,000-36,000 by gel filtration on Sephadex G-75, suggesting that it consists of three identical polypeptide chains. Its isoelectric point was pH 3.9. Its N-terminal amino acid sequence was NH2-Asp-Glu-Pro-Pro-Asp-Glu and its C-terminal amino acid was Lys. It contained no detectable carbohydrate.     

Inhibitory action of soluble elastin on thromboxane B2 formation in blood platelets

Soluble elastin, prepared from insoluble elastin by treatment with oxalic acid or elastase, was found to inhibit the formation of thromboxane B₂ both from [1-¹⁴C]arachidonic acid added to washed platelets and from [1-¹⁴C]arachidonic acid in prelabeled platelets on stimulation with thrombin. In both systems, the formation of 12-hydroxy-5,8,10,14-eicosatetraenoic acid (12-HETE) was accelerated. Oxalic acid-treated soluble elastin st 1 and 10 mg/ml inhibited the formation of thromboxane B₂ from exogenously supplied arachidonic acid 21 and 59%, respectively, and the formation of thromboxane B₂ in prelabeled platelets stimulated by thrombin 44 and 94%, respectively. These concentrations of elastin increased the formation of 12-HETE from exogenously supplied arachidonic acid about 3.4- and 7.3-times, respectively. Almost all the added arachidonic acid was converted to metabolites. In prelabeled platelets, soluble elastin at 1 and 10 mg/ml increased the formation of 12-HETE stimulated by thrombin about 1.3- and 2.8-times, respectively, and inhibited the thrombin-induced total productions of thromboxane B₂ (12-hydroxy-5,8,10-heptadecatrienoic acid (12-HETE) and free arachidonic acid by 26 and 25%, respectively. Elastase-treated digested elastin also inhibited the formation of thromboxane B₂ and stimulated the formation of 12-HETE in prelabeled platelets stimulated by thrombin. This inhibitory action of elastin was not replaced by desmosine. The level of cAMP in platelets was not affected by soluble elastin. Soluble elastin was also found to inhibit platelet aggregation induced by thrombin. However, the inhibitory action of soluble elastin on platelet aggregation cannot be explained by inhibition of thromboxane B₂ formation by the elastin.     

Changes in elastin composition in aorta of spontaneously hypertensive rats (SHR)

Tropoelastin and elastin preparations obtained from aortae of spontaneously hypertensive rats (SHR) show an increased proportion of polar amino acids (aspartic acid, glutamic acid, arginine and tyrosine). The content of these amino acids is 1.43-3.04 times higher in SHR rats than in similar elastin or tropoelastin preparations obtained from normotensive animals. On the other hand elastin and tropoelastin preparations obtained from SHR rats show a lower frequency of the Val-Pro sequence; this was found to be 35.93 per 1000 amino acid residues in SHR rats as compared to 51.04 per 1000 amino acids in the preparations obtained from control animals. Since similar differences were found not only in elastin preparations but also in tropoelastin, contamination of these preparations with an acidic protein seems unlikely. In general the results obtained are similar to those seen in animals kept on a long term high fat diet. It appears feasible to suggest that these differences are caused by a changed proportion of two different elastin type.     

Demonstration of a precursor-product relationship between soluble and cross-linked elastin, and the biosynthesis of the desmosines in vitro.

Direct evidence showing that a soluble form of elastin is the precursor of cross-linked elastin was obtained from pulse-chase experiments using chick embryo aortas and by demonstrating the conversion of soluble elastin into cross-linked elastin in a cell-free system. Acetic acid extracts of embryonic chick aorta pulse-labeled with [14C]lysine contain two radioactive proteins of molecular weights 74,000 and 138,000 which have been identified previously as soluble elastin and the pro-alpha chain of collagen, respectively. In pulse-chase experiments, the radioactivity incorporated in the soluble elastin during the pulse with [14C]lysine disappeared during a 24-hour chase with [12C]lysine and 89% of that which disappeared was accounted for in the desmosines of alkali-insoluble elastin. The disappearance of the radioactivity from the soluble fraction and its appearance in the desmosines of elastin were inhibited by beta-aminopropionitrile, a specific inhibitor of the cross-linking enzyme lysyl oxidase. In addition in vitro experiments, it was shown that the radioactivity in the desmosines of elastin can arise from that present in an acid-soluble precursor protein. This precursor protein is soluble elastin, as demonstrated by the formation of desmosines when a homogeneous preparation of soluble elastin was incubated with purified lysyl oxidase.     

Purification of an active opioid-binding protein from bovine striatum

We report the purification to apparent homogeneity of an active opioid-binding protein solubilized from bovine striatal membranes. The purification was accomplished in two steps: affinity chromatography on beta-naltrexylethylenediamine (NED)-CH-Sepharose 4B followed by lectin affinity chromatography on wheat germ agglutinin-agarose. The ligand affinity-purified fraction exhibits stereospecific and saturable binding of opiates and is heat-sensitive. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate of the NED-purified material gave 6-8 bands by silver staining or autoradiography of radioiodinated material. Under nondenaturing conditions, the NED-purified material elutes in a molecular mass range between 300 and 350 kDa from gel exclusion chromatography on Ultrogel AcA-34. The specific activity of the affinity-purified fraction (800-1500 pmol/mg protein) is enriched 4000 to 7000-fold over that of the membrane-bound or unpurified soluble receptor. Further purification (10-20-fold) is achieved by chromatography of the NED eluate on wheat germ agglutinin-agarose. The eluted fraction shows a single protein (65 kDa) on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The purified material is an acidic glycoprotein with a pI of 6.0-6.3 and binds opiates with a specific activity (12,000-15,000 pmol/mg) that is 65,000 to 75,000-fold greater (theoretical, 77,000-fold) than that of the membrane-bound or crude soluble receptors.     

Comparison of aragonitic molluscan shell proteins

Acidic macromolecules, as a nucleation factor for mollusc shell formation, are a major focus of research. It remains unclear, however, whether acidic macromolecules are present only in calcified shell organic matrices, and which acidic macromolecules are crucial for the nucleation process by binding to chitin as structural components. To clarify these questions, we applied 2D gel electrophoresis and amino acid analysis to soluble shell organic matrices from nacre shell, non-nacre aragonitic shell and non-calcified squid shells. The 2D gel electrophoresis results showed that the acidity of soluble proteins differs even between nacre shells, and some nacre (Haliotis gigantea) showed a basic protein migration pattern. Non-calcified shells also contained some moderately acidic proteins. The results did not support the correlation between the acidity of soluble shell proteins and shell structure.     

A BRAIN-SPECIFIC PROTEIN WITH AFFINITY FOR DNA1

Abstract— A procedure has been developed which allows the isolation from rat brain cytosol of a soluble acidic protein, designated DNA-110 protein, having two basic properties: selective affinity for single-stranded DNA and immunological specificity to the nervous system. Only two major purification steps, DNA-cellulose chromatography and affinity chromatography on immunoadsorbents are needed to give apparently pure protein. The purification steps of the DNA-110 protein have been followed by immunological assay. DNA-110 has a molecular weight of 68,000 and an isoelectric point of 5.9. It accounts for 1.95% of the total soluble protein and its concentration is 216 μg per g wet weight of rat brain. DNA-110 is immunologically unrelated to other soluble acidic brain-specific proteins and glycoproteins.     

ISOLATION AND CHARACTERIZATION OF A SOLUBLE GLUCOSE-CONTAINING SIALOGLYCOPROTEIN FROM THE CORTICAL GREY MATTER OF CALF BRAIN

A sialoglycoprotein has been isolated from the cortical grey matter of calf brain after homogenization in 0.32 M-sucrose or in 0.15 M-NaCl. The sialoglycoprotein is present in the supernatant obtained after centrifugation at 100,000 g for 60 min. It is designated GP-350 on account of its elution with 350 mM-NaCl on a DEAE-cellulose column. From DEAE-cellulose chromatography it is evident that compounds comparable to GP-350 occur in the brain of calf and sheep, whereas they seem to be absent in calf liver and kidney. After purification, with polyacrylamide gel electrophoresis only one band can be shown both at pH 8.9 and 7.5. GP-350 consists of about 83 percent of protein and about 17 per cent of carbohydrate. The polypeptide core has an acidic character: amino acid analysis gives 26 per cent for glutamic acid plus aspartic acid and their amides, with a ratio of acidic to basic amino acids of 3.3. The carbohydrate moiety contains 2.4% sialic acid, 5.5 % hexosamine and 9.4% hexose. It is remarkable that this brain sialoglycoprotein comprises 4% glucose. Care was taken to prevent contamination with glucose-containing materials during the purification procedure of GP-350. The complete absence of other glucose-containing compounds which occur in brain, Le. glycogen and gangliosides, was demonstrated. GP-350 accounts for at least 3 per cent of the total saline-extractable protein and about 20 per cent of the total saline-extractable protein-bound sialic acid of the cortical grey matter of calf brain. These percentages correspond to 390 pg of protein and to 14 μg of sialic acid per g wet weight. GP-350 remains soluble when the pH is brought to 3.9 or when ethanol is added to 70 % (v/v).     

Studies on Nuclei of Paramecium aurelia. II. Amino Acid Composition and Electrophoretic Properties of the Chromosomal Basic Proteins*

SYNOPSIS. The basic proteins of Paramecium aurelia nucleus were extracted from isolated nuclei and deoxyribonucleoprotein (DNP) of such nuclei. About 35–40% of the nuclear protein, predominantly a lysine-rich histone, is acid soluble. Five major components of the histone can be distinguished by polyacrylamide gel electrophoresis. Some components of Paramecium histone are similar to those of mammalian histones in their electrophoretic mobility, but they differ from the latter in the electrophoretic velocity and relative levels. The basic to acidic amino acid ratio of the histone from the ciliate is ～1.1–1.5, and its amino acid composition resembles closely that of yeast histone. Through the use of Sephadex G-200 gel filtration for purification of the histones extracted directly from isolated nuclei 2 basic proteins were resolved—component I, with an elution volume of 1.4, constitutes ～20% and component II, with an elution volume of 1.9, ～80%.     

Isolation and partial chemical characterization of THF, a thymus hormone involved in immune maturation of lymphoid cells.

A procedure for isolation and characterization of the active principle of calf thymus is described. It consists of homogenization, ultracentrifugation and dialysis of the material. The active dialyzate is further purified by gel filtration on Sephadex G-10 and G-25 columns followed by anion exchange chromatography. The level of purification is assessed by isoelectric focusing on polyacrylamide gels. The active principle is a polypeptide of MW 3220. Determination of the amino acid composition revealed the presence of high proportion of acidic residues.     

Cellular retinoic acid-binding protein from rat testis. Purification and characterization

Cellular retinoic acid-binding protein has been purified to homogeneity from rat testes. The procedures utilized in the purification included acid precipitation, gel filtration, and chromatography on DEAE-cellulose. The binding protein was purified approximately 12,000-fold, based on total soluble testicular protein. The protein is a single polypeptide chain with a molecular weight of 14,600, determined by information from gel filtration and sodium dodecyl sulfate-polyacrylamide electrophoresis. The protein binds retinoic acid with high affinity; the apparent dissociation constant was determined by fluorometric titration to be 4.2 X 10(-9) M.     

Creation of cross-linked electrospun isotypic-elastin fibers controlled cell-differentiation with new cross-linker

Effective application of elastin materials for vascular grafts in tissue engineering requires these materials to retain the elastic and biological properties of native elastin. To clarify the influence of soluble elastin isotypes on vascular smooth muscle cells (VSMCs), soluble elastin was prepared from insoluble elastin by hydrolysis with oxalic acid. Its fractions were separated and classified into three isotypes. Elastin retaining 2.25 mol% of cross-linked structures exhibited significant differentiation of VSMCs, which adhered to the elastin with contraction phenotypes similar to that of native elastin, causing proliferation to cease. This trend was more strongly demonstrated in cotton-like elastin fibers with a new cross-linker. The results suggest that elastin isotypes could be applied as new effective biomaterials for suppressing intimal hyperplasia in vascular grafts.     

New Antifungal Antibiotic,Polcillin

Polcillin was found in culture filtrate of Bacillus subtilis TPR-2201 isolated from a soil sample. By the purification it was obtained as white amorphous powder which was easily soluble in water, lower alcohol, wet acetone and pyridine. It is stable at pH values from 2.0 to 9.0. From the physicochemical studies it was found to be an acidic polypeptide consisting of such amino acids as aspartic acid, glutamic acid, serine, proline and tyrosine. The growth of fungi and yeasts are widely inhibited but most bacteria are not inhibited by above the concentration of 200 mcg/ml.     

Crosslinkage of salt-soluble elastin in vitro.

Radioactively labeled soluble elastin, synthesized $\text{in vitro}$ by viable copper-deficient pig aorta in a culture medium containing L-[4,5-³H] lysine, was incubated with normal newborn pig aorta. The insoluble residue, after extraction of the aorta with cold 0.5M NaCl at pH 7.4, was reduced with NaBH₄. Insoluble elastin, prepared from this by autoclaving after extraction with guanidine, was hydrolyzed with HCl and the hydrolysate was chromatographed on Aminex A-5. Among the radioactive residues eluted in the basic region, four elastin crosslinks (isodesmosine, desmosine, lysinonorleucine and merodesmosine) were identified by comparison with known standards on the Beckman amino acid analyzer. This provides the first direct evidence that soluble elastin is a precursor of insoluble elastin.     

Purification of a skeletal muscle polypeptide which stimulates choline acetyltransferase activity in cultured spinal cord neurons

Extracts of rat skeletal muscle contain neurotrophic factors which stimulate the development of choline acetyltransferase in embryonic day 14 rat spinal cord cultures. The trophic activity does not bind heparin-Sepharose or lectin affinity columns. However, mild acid treatment separates the trophic activity into soluble and insoluble fractions. The acid-insoluble activity has been purified 5000-fold to apparent homogeneity using preparative sodium dodecyl sulfate gel electrophoresis to achieve final purification. The purified factor migrates as a single band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis and isoelectric focusing, with an apparent molecular mass of 20 kDa and a pI of 4.8. The activity and apparent molecular weight of the purified factor are unaltered by treatment with reducing agents or incubation in acidic conditions. Activity, however, is destroyed by heating or protease treatment. Thus, the factor appears to be a single polypeptide without significant levels of glycosylation or charge microheterogeneity. These results represent the first purification of a neurotrophic factor from skeletal muscle. The physical properties and amino acid composition of this factor differ from those of nerve growth factor and heparin-binding growth factors, as well as from the neurotrophic factor from heart cell conditioned medium which induces cholinergic development in sympathetic neurons.     

Isolation and characterization of a soluble, immunoactive peptide of glial fibrillary acidic protein

A soluble immunoactive peptide with a molecular weight of 16 000 was isolated and purified from the cyanogen bromide digest of the insoluble 50 000 dalton glial fibrillary acidic protein by Sephacryl S-200 gel filtration followed by DEAE-Bio-gel A chromatography. The homogeneity of the peptide was established by SDS-polyacrylamide gel electrohporesis and isoelectric focusing. The peptide from several species showed immunocrossreaction with rabbit antibody to intact glial fibrillary acidic protein. The peptide has a pI value of 5.32. The amino acid sequence of 28 residues from the amino terminus of the calf peptide has been determined.     

Purification and characterization of chymodenin. A hormone-like peptide from porcine duodenum

Chymodenin, a hormone-like duodenal peptide which rapidly alters the proportions of secreted pancreatic digestive enzymes to a mixture relatively richer in chymotrypsinogen than that found in basal secretion, has been purified to homogeneity. The starting material was an acidic methanol-soluble, neutral pH-insoluble fraction of an acetic acid extract of porcine duodenum; the purification consisted of cation-exchange chromatography on SP-Sephadex and CM-Sephadex in ammonium bicarbonate gradients, and gel filtration on Sephadex G-75 in dilute acetic acid. The yield of material was followed by radioimmunoassay. Homogeneity was determined from chymodenin's behavior in disc gel electrophoresis in an acidic counter-migration-of-dye system, sodium dodecyl sulfate-urea gels, gel filtration, dansyl-Edman reaction, reversed-phase high pressure liquid chromatography, isotachophoresis, and sedimentation equilibrium ultracentrifugation. The electrophoretic mobility, the molecular weight of 9,000-10,000, and the biological activity differed from those of other gastrointestinal peptide hormones. The amino acid composition was unique. Chymodenin is the first purified hormone-like substance reported capable of altering the composition of the mixture of secreted digestive enzymes, independent of the stimulation of massive pancreatic protein output.     

Identity of soluble thiamin-binding protein with thiamin-repressible acid phosphatase in Saccharomyces cerevisiae

Two secretory glycoproteins of Saccharomyces cerevisiae, a soluble thiamin-binding protein and a thiamin-repressible acid phosphatase, were shown to be repressed to a similar extent by excess thiamin in the growth medium. Thiamin-repressible acid phosphatase was co-purified throughout the purification of the soluble thiamin-binding protein. Purified and deglycosylated soluble thiamin-binding proteins exhibited both thiamin-binding and acid phosphatase activity on non-denaturing polyacrylamide gel electrophoresis. Heat treatment of the purified soluble thiamin-binding protein caused a decrease in both activities with a similar inactivation profile. Furthermore, two thiamin-repressible acid phosphatase-defective mutants isolated had no and decreased soluble thiamin-binding activity, respectively. From the results, it was concluded that the soluble thiamin-binding protein is identical to the thiamin-repressible acid phosphatase in S. cerevisiae.